DE3615876A1 - Process and apparatus for analysing gases - Google Patents

Abstract

In a process for measuring physical and/or chemical variables, in particular for analysing gases by means of sensors, a solution is to be provided by which gases can be analysed by means of exchangeable sensors, i.e. with which the effect can be achieved that the measured values can be reproduced as desired and are very accurate, a further object of the invention being that of providing a corresponding apparatus and device for carrying out this process, without the invention being restricted to the specific type of gas analysis. This is achieved by using the number of sensors corresponding to the number of variables or constituents to be measured, each sensor supplying a measured variable for each of the variables to be determined, this multiplicity of measured variables from each sensor being fed to a computer and the computer calculating from the sum of values received for each measured variable a corresponding measured value and making this available for further processing. <IMAGE>

Description

The invention is directed to a method for measuring of physical and / or chemical quantities, in particular re for analyzing gases via sensors and a pre direction for performing the method.

In the course of the examination for intolerance to exhaust gases are a number of gas analysis and environmental surveillance procedures and the associated equipment became known. It is known gases from sensors to let analyze the specific gasbe components of known nature have sensitivities and therefore can make it recognizable to the user.

Such gas sensors have the disadvantage that they not with predeterminable properties and measurement tolerances can be manufactured so that the sensors are either calibrated the must or the measured values only a tape accuracy can often have the desired requirements no longer corresponds.

The object of the invention is to provide a solution with the gases can be analyzed using interchangeable sensors, i.e. with which can be achieved that the measured values be are reproducible and very accurate, with a white Another object of the invention is to meet one  de Device and device for performing this Ver provide driving without the invention to the special type of gas analysis would be limited.

In a method of the type described at the beginning, the se object achieved according to the invention in that a the number of quantities or components to be measured speaking number of sensors is used, each Sensor a measured variable for each of the variables to be determined provides this number of measured variables from each sensor Computer is fed and the computer from the sum of the corresponding values received for each measured variable Measured value calculated and available for further processing supply.

The invention makes use of the fact that sensors concentrate ions of gases can also measure if they are for the they do not show their main sensitivity, but at for example, a corresponding cross sensitivity. are e.g. five components have to be measured for one exhaust gas five specific sensors are provided, but for each gas component has a value on the associated calculator deliver, even if this value corresponds to one is not detectable at all and therefore by the corresponding sensor is specified with "0".  

By the procedure, it is possible that the of each values determined by the computer via a linear Equation system with a number of unknowns corresponds according to the number of values to be measured, as the invention also provides. Opposite others ren previously known types of investigation has the invention the advantage that the possible linear equation systems very simple computers and therefore very economical Lich measuring units to be made possible.

In further development, the invention provides that everyone Standardization sensor with its own processor equips and in the use position the processor with the measuring data from other sensors in the device is supplied.

This procedure makes it possible for any sensor can be equipped with its own electronics, which requires that the sensors are no longer pre-adjusted at the factory must, because the assigned processors in the task Can take over the assignment directly.

The invention also provides a device in particular for Implementation of the procedure, which is characterized by net that they correspond to one of the sizes to be measured the number of sensors, the Senso are effectively connected to a computer and this computer one measurement value for each quantity to be measured  provides.

This device can, for example, from a measuring case be formed, carried by the user at all times can be. With such a measuring case can be for example, the exhaust gas values of heating systems as well quickly determine how the exhaust gas values of exhaust systems, of motor vehicles or the like. More. Are not the sensors against gases, but against the contents of liquids water samples can be analyzed accordingly the, the condensate in heating systems, the components of Heating oil, petrol or the like

The invention also provides that the values of a sensor for other, for him unspecific measurands, which he sends to a NEN computer, also correspond to the value "0" can. As already explained above regarding the method, compensate the sensors according to the number of measuring quantities within the device speaking measurement errors, if they gave the system the value "0" far, since all measurands in the form of linear equations systems can be determined via the assigned computers.

The invention also provides that each sensor with a own processor is equipped, with particular emphasis on it is particularly advantageous if each sensor has a measurement size specific processor and this processor of its spec  the corresponding values of the other sensors and subsequently processed.

With the last measure, the expenditure on computer Keep the hardware comparatively low because of the processor every sensor already has a wealth of computing functions can take.

In particular, each processor of each computer can egg ne digitized information to another computer deliver what the overall evaluation is again an essential ches relieved.

Unlike with known systems, the Erfin This increases the accuracy of measurement aim that all sensors via a temperature meter ne further information is supplied and with the help of this Temperature measurement a temperature compensation over the each because of the processors.

The additional temperature measurement moves the user Such a device is capable of temperature to be as independent as possible, this affects once the surroundings of its measuring point as well as the temperature of the fluids to be measured, with the expression fluids so gases and liquids can be meant.

Further advantages, details and features of the invention result from the following description as well based on the drawing. This shows in

Fig. 1 is a side view of a sensor according to the dung on OF INVENTION,

Fig. 2 shows the top view of the sensor,

Fig. 3 shows the spatial view of an electronic circuit board to be placed on the sensor of FIG. 1,

Fig. 4 is a block diagram of meter electronics according to the invention,

Fig. 5 shows a possible circuit configuration of the invention and in

Fig. 6 shows a modified circuit design according to the invention.

The sensor generally designated 1 according to FIG. 1 has a measuring membrane 2 on its underside and mounting pins 3 , with which it can be connected to an analysis device, which the present invention does not relate to.

On its side facing away from the measuring diaphragm, the sensor 1 in the example according to FIGS. 1 and 2 carries a connector electronics 4 , which is framed by a dash-dotted line and the connectors 5 , a housing 6 and one designated in the fol lowing A , B and C. Plug or a coupling 7 carries. Via the connections A to C , the measured values determined by the measuring membrane 2 and the corresponding sensors are taken up, implemented and passed on. The mounting board is designated 8 in the case of FIG. 1. It can be designed as a circular disk (see FIG. 2) or as a conventional printed circuit, as shown in FIG. 3. In this case the board is labeled 8 a . It bears at least one microprocessor 9, a plug 7 a and other electronic components 10 to 12, wherein the electronic component 12 is designed as a temperature sensor for sensor compensation.

In Fig. 4, a possible block diagram is shown, wherein the block labeled 1 for the sensor of the previously mentioned temperature sensor 12 is assigned for compensation. The block labeled 13 and following serves as a measuring amplifier or for sensor adaptation, the converter labeled 14 can be, for example, a U / F converter, ie a voltage / frequency converter or A / D converter or the like. With 15 the interface designated. This can be designed asynchronously serial, synchronously serial, binary or analog or in some other way.

In principle, a number of circuits are possible, two variants being shown in FIGS. 5 and 6. The circuit elements are framed in dash-dotted lines in the examples shown. The frames should essentially correspond to the symbols of the block diagram according to FIG. 4, blocks 14 and 15 being combined to form a block in the exemplary embodiment according to FIG. 5, while blocks 13 and 14 are combined in the exemplary embodiment according to FIG. 6. The corresponding reference numbers are within the dash-dotted frame.

In the case of FIG. 4, the interface labeled 16 is preceded by a microprocessor 17 or 9 , which can be designed as a ROM, PROM or also as an EPROM, depending on the configuration level of the system. The microprocessor 17 according to the embodiment of FIG. 5 should be equipped with an analog output. For sensor compensation, the temperature sensor 12 is connected to the microprocessor 17 via a line 18 and an amplifier 19 .

In a modification of this, FIG. 6 shows the possibility to carry out a voltage / frequency conversion of the 17-a be recorded microprocessor of the interface 16 a upstream, is therefore provided with a counter input. The temperature sensor also acts first on a U / F converter 20 and only then on the microprocessor 17 a .

Of course, the described embodiments of the Invention to change in many ways without the To leave basic ideas. This applies to both circuit design as well as the physical Design of the sensor.

Claims (10)

1. A method for measuring physical and / or chemical quantities, in particular for analyzing gases via sensors, characterized in that a number of sensors are used in accordance with the number of quantities or components to be measured, each sensor being a measurement quantity for each which supplies the quantities to be determined, this plurality of measured quantities is fed to a computer by each sensor and the computer calculates a corresponding measured value from the sum of the received values for each measured quantity and makes them available for further processing. 2. The method according to claim 1, characterized,  that the values determined by each sensor from the computer over a system of linear equations with a number of Un known according to the number of values to be measured is used. 3. The method according to claim 1, characterized, that each sensor for normalization with its own process sor equipped and in the use position the processor with the measurement data of other sensors in the device becomes. 4. Apparatus in particular for carrying out a method according to the preceding claims, characterized in that it is equipped with one of the corresponding variables to be measured number of sensors (1), wherein the Senso ren (1) operatively connected to a computer (9) in connection stand and provide this computer with a measured value for each variable to be measured. 5. The device according to claim 4, characterized in that the values of a sensor ( 1 ) for other, for him unspecific measurands, which he delivers to a computer ( 9 ) can also correspond to the value "0". 6. The device according to claim 4 or 5, characterized in that each sensor ( 1 ) is equipped with its own processor ( 9 ). 7. Device according to one of claims 4 to 6, characterized in that each sensor ( 1 ) has a measurement-size-specific processor ( 9 ) and this processor ( 9 ) records its values corresponding to the other sensors and processes them according to the following. 8. Device according to one of claims 4 to 7, characterized in that the processor ( 9 ) of each sensor ( 1 ) passes on digitized information to a computer. 9. Device according to one of claims 4 to 8, characterized in that all sensors ( 9 ) via a temperature meter, further information is supplied and with the help of this temperature measurement, temperature compensation takes place via the respective processors. 10. Device according to one of claims 4 to 9, characterized in that each sensor ( 1 ) via its processor ( 9 ) is pre-adjusted in the factory, such that it can be installed in a corresponding measuring device without readjustment.